Vehicle hood support and latch system

ABSTRACT

A hood and fender assembly mounting and latch system for use with an over-the-highway tractor having a frame supporting an engine, a cab and a hood and fender assembly. A hinge pivotally connects the hood and fender assembly to the frame. A hex-shaped torsion bar and damper are used to assist in the opening and closing of the hood and fender assembly. The latch system includes a receiver assembly attached to the frame. A pin assembly is attached to the hood and fender assembly at a distal location relative to the hinge. The receiver assembly receives the pin assembly when the hood and fender assembly is in a position enclosing the engine and locates and maintains the hood and fender assembly in a predetermined position relative to the frame, independent of the cab. The receiver assembly has a lock lever which is movable between a latched position at which it engages the pin assembly and an unlatched position. A movable handle is located within the cab. A cable connects the handle with the lock lever to move the lock lever from the latched position to the unlatched position in response to movement of the handle.

TECHNICAL FIELD

[0001] The present invention relates generally to releasably connecting a vehicle enclosure to a frame of the vehicle. In particular, the present invention relates to a hood and fender assembly mounting system for connecting a forwardly tiltable hood and fender assembly of a heavy duty truck to a frame of the vehicle and assisting in the opening and closing of the hood and fender assembly.

BACKGROUND ART

[0002] Conventional heavy duty trucks typically have a hood and fender assembly and a cab which are both supported by a frame of the truck. The hood and fender assembly is often made from a fiberglass reinforced composite material and is hinged to the frame at a forward end of the assembly. The cab is typically a metal weldment or riveted assembly mounted on the frame. The hood and fender assembly may be pivotably mounted and biased by a counter balancing spring which biases the hood and fender assembly toward either the open or closed position thereby easing operation of the hood and fender assembly when access to the engine is needed. The hood and fender assembly may also include a spring or damper device which controls the rate of travel of the hood and fender assembly in one or both directions, preventing sudden movement during operation of the hood and fender assembly. When the hood and fender assembly is in a closed position, the rearward end of the hood and fender assembly is generally mounted on and fastened to the cab.

[0003] Typically, spring loaded latches or elastic straps releasably connect a closed hood and fender assembly to, and in engagement with, the cab. The latch or strap is typically accessible only from outside of the vehicle. This generally requires a vehicle driver or mechanic to be outside the vehicle and access a first latch on one side of the hood and fender and then move to the other side of the vehicle and access a second latch on the other side of the vehicle.

[0004] This known latch or strap arrangement has disadvantages. One disadvantage is the amount of movement around both sides of the exterior of the truck on the part of the driver or mechanic to release or connect the latches. Another disadvantage is a lack of security. Any unauthorized person may access the engine and engine compartment merely by releasing the latches and pivoting the hood and fender assembly.

[0005] Frequently the mounting of the cab of an over-the-highway vehicle on a frame includes a shock absorbing mechanism. The shock absorbing mechanism allows a limited amount of movement of the cab relative to the frame while absorbing vibration and road shocks to improve ride qualities for an operator and any passengers. As the vehicle is operated, the respective movements of the hood and fender assembly and the cab relative to the frame and any torsional twisting of the frame which may occur during use cause considerable relative movement between the hood and fender assembly and the cab. This interaction between the hood and fender assembly reduces the ride quality by limiting the motion of the cab on its shock absorber and causing additional forces on the cab which degrade ride quality. Since the hood and fender assembly and the cab are typically relatively tightly engaged, relative movement causes undesirable forces to act between the hood and fender assembly and the cab. A large gasket between the hood and fender assembly and the cab may be needed to cushion these forces. Since the hood and fender assembly is typically a composite material while a cab is metal, these forces may disfigure the hood and fender assembly creating an undesirable and unsightly condition.

[0006] Typical counter balancing springs may be torsion bars which have a circular cross section. While a circular configuration allows for adjustment of the amount of bias on the hood and fender assembly, it may also require the use of additional fixing methods or connecting devices to secure the ends of the torsion bar.

DISCLOSURE OF THE INVENTION

[0007] The present invention provides a new and improved body panel support and latch system which is especially adapted for over-the-highway heavy duty type tractor vehicles. The invention includes a frame structure which includes a portion that supports an operator cab and a portion for mounting a prime mover or engine, forward of the cab. A body panel which, in the illustrated embodiment, comprises a hood and fender assembly is movable between opened and closed positions and is operative to enclose an engine compartment when in the closed position. At least one hood latch mechanism maintains closure of the hood and fender assembly and includes first and second latching assemblies.

[0008] The first latching assembly is attached directly to the frame preferably by a strut which is attached to and extends laterally from the frame structure and the second latching assembly is attached to a rear section of the hood and fender assembly. The first and second latching assemblies are engagable when the hood and fender assembly is moved to its closed position.

[0009] In the preferred and illustrated embodiment, at least one pivot assembly is mounted to a forward end of the frame structure and mounts a forward end of the hood and fender assembly for pivotal movement. With the disclosed mounting system, the hood and fender assembly is entirely supported by the frame structure, independent of the operator cab.

[0010] In the more preferred embodiment, the forward end of the hood and fender assembly is pivotally attached to the frame by two hinge assemblies. Each hinge assembly preferably includes a J-bracket, a portion of which is bolted to the hood assembly. A spring assist provided by at least one torsion bar aids in the opening and closing of the hood and fender assembly.

[0011] In the exemplary embodiment, two torsion bars are provided, each having a hex-shaped cross-section. Each J-bracket includes a hex-shaped socket adapted to receive one end of a torsion bar. The socket is located on the pivot axis of the hinge assembly so that as the hood and fender assembly opens or closes the end of the torsion bar received in the socket is rotated. The socket is enclosed in a rubber ring isolator to cushion the frontward portion of the hood and fender assembly from the frame. The opposite end of the torsion bar is received in a stationary hex-shaped opening where it is held against rotation. Thus, as the hood and fender assembly is closed, each torsion bar is twisted thus, generating a preload which aids in opening and closing of the hood and fender assembly. The hex-shaped torsion bar allows for adjustment while easing assembly by eliminating the need for additional connecting devices or fixing methods which may be necessary with torsion bars of circular cross section. The present invention further provides alignment structure which allows for adjustment of the preload of the torsion bars prior to the installation of the hood and fender assembly to the frame.

[0012] According to a feature of the invention, at least one motion control device is provided which controls the rate of travel of the hood and fender assembly as it moves between the opened and closed positions. In the preferred and illustrated embodiment, the motion control device comprises a fluid filled, extendable cylinder one end of which is attached to the hood and fender assembly, the other end of which is coupled to the frame structure. The combination of the torsion bar and a damper control regulates the effort required to move the hood and fender assembly and also limits the rate of travel of the hood and fender assembly, providing for predictable operation of the hood and fender assembly.

[0013] The latch system automatically connects itself upon pivotal movement of a hood and fender assembly to a fully closed position to interconnect the hood and fender assembly to the frame. The latch system includes a handle located within a cab of a truck which is actuatable to release the connection. Thus, the driver or mechanic does not have to be located outside the cab and move to both sides of the truck to release or connect the latch system. If doors of the cab are locked with the latch system connected, unauthorized access to the engine compartment is inhibited. Since the hood and fender assembly is releasably connected to the frame rather than the cab, forces caused by relative assembly and cab movements can be and are reduced and resultant disfiguring damage to the hood and fender assembly and degradation of ride quality are avoided.

[0014] The apparatus includes a first latching assembly attached to the frame. A coacting latching assembly is attached to the hood and fender assembly at a distal location relative to the hinge. The latching assemblies are releasably interconnected when the hood and fender assembly is in a position which encloses the engine to locate and to maintain the hood and fender assembly in a predetermined position relative to the frame independent of the cab. The releasable latching assembly has a lock lever which is movable between a latched position engaging the coacting latching assembly and an unlatched position for disengagement from the coacting latching assembly. A movable handle is located within the cab. A cable connects the handle with the lock lever to move the lock lever from the latched position to the unlatched position in response to movement of the handle.

[0015] The coacting latching assembly includes a shaft attached at a mounting end portion to the hood and fender assembly. A guide member is movable along the shaft. A bias mechanism urges the guide member away from the mounting end and toward an outer end of the shaft. The releasable latching assembly includes a cup shaped receiver having an opening extending therethrough. A surface on the guide member engages the cup shaped receiver when the hood and fender assembly pivots to a substantially closed position to move the guide member towards the mounting end of the shaft against a force of the bias mechanism. The outer end of the shaft is exposed during movement of the hood and fender assembly from the partially closed position to a fully closed position and extends through the opening in the receiver. The lock lever engages the shaft near an end portion from the opening to prevent movement of the hood and fender assembly towards an open position. The lock lever includes a slot which acts on a rivet to limit travel of the lock lever to an acceptable range.

[0016] The coacting latching assembly includes a shoulder near the outer end of the shaft to engage a portion of the lock lever and maintain the receiver and the guide member engaged with the latching assembly in the fully closed position. Surfaces of the cup-shaped receiver on the guide member are frusto-conical to guidingly align the latching assembly during latching movement. The outer end of the shaft cams the lock lever in a direction transversely away from the shaft as it is moved to a position extending from the opening in the receiver.

[0017] Accordingly, an object of the invention is to provide a heavy duty over-the-highway vehicle with a novel and improved hood and fender assembly mounting system.

[0018] Further features of the present invention will become apparent to those skilled in the art to which the present invention relates from reading the following specification with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

[0019]FIG. 1 is a side elevational view of a heavy duty truck having a forwardly tiltable hood and fender assembly illustrated in different positions;

[0020]FIG. 2 is a longitudinal cross-sectional view of a latch mechanism for connecting the hood and fender assembly to the truck frame, illustrated in a latched position;

[0021]FIG. 3 is a longitudinal cross-sectional view of the latch mechanism of FIG. 2, illustrated in an unlatched position;

[0022]FIG. 4 is a plan view of a portion of the latch mechanism illustrated in FIG. 3, the receiver assembly, as seen from above the receiver;

[0023]FIG. 5 is an exploded view of the receiver support strut used to mount the latch mechanism illustrated in FIGS. 2, 3, and 4 to the truck frame.

[0024]FIG. 6 is an exploded rear elevational view of a hinge connection between the hood and fender assembly and the truck frame with the hood and fender assembly open.

[0025]FIG. 7 is an exploded front elevational view of the torsion spring assist as attached to the hinge assembly shown in FIG. 6.

DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION

[0026] A conventional over-the-highway heavy duty vehicle in the form of a tractor 20 having a hood and fender assembly mounting system embodying the present invention is illustrated in FIG. 1. The tractor 20 includes a frame 22 which supports drive train components including an engine 24. The frame 22 includes a spaced pair of longitudinally extending rails 23 extending continuously for substantially the entire length of the tractor 20. A cab 26 is mounted on the frame 22 and defines a compartment for a vehicle driver to occupy during operation of the tractor 20. A shock absorbing mechanism 28 may be connected between the cab 26 and frame 22 to suspend and control movement of the cab relative to the frame.

[0027] The tractor 20 also includes a hood and fender assembly 42. The hood and fender assembly 42 is preferably made as a one-piece, molded fiberglass reinforced composite body component. The forward end of the hood and fender assembly 42 is connected to the frame 22 by a pair of hinge assemblies 44 located at a forward end portion of each frame rail 23. The hinge 44 pivotally connects a forward end of the hood and fender assembly 42 to the frame 22 so it is forwardly tiltable to an open position (shown by solid lines 63 a, FIG. 1), permitting access to components in the engine compartment 43 including the engine 24.

[0028] In addition to pivotally connecting the forward end of the hood and fender assembly 42 to the frame 22, a hood and fender assembly mounting system, embodying the present invention, releasably connects the rearward portion of the hood and fender assembly 42 directly to the frame rails 23 via hood latch mechanisms 64 and receiver support struts 47, thereby isolating the hood and fender assembly 42 from the cab 26. Each hood latch mechanism 64 connects a rearward side portion of the hood and fender assembly 42 to a respective receiver support strut 47 when the latch mechanism 64 is in the latched position, as illustrated in FIG. 2. The hood latch mechanism 64 maintains the hood and fender assembly 42 in the closed position, as illustrated by dashed lines 63 b in FIG. 1. Each latch mechanism 64 automatically adopts the latched position upon pivotal movement of the hood and fender assembly 42 to the fully closed position 63 b relative to frame 22. The hood and fender assembly mounting system includes a handle 66 located within the cab 26 (FIG. 1), and cables 68 (FIGS. 1 and 4) connecting each latch mechanism 64 with the handle 66. The hood and fender assembly mounting system further provides hood restraint cylinders 45 (FIG. 1) and torsional spring assist 300 with a hex-shaped cross section (FIG. 7) which regulate the rate of travel and amount of force required to open and close the hood and fender assembly 42.

[0029] A hood and fender assembly mounting system, embodying the present invention, includes a pair of substantially identical latch mechanisms 64, each comprising a pin assembly 162 and a receiver assembly 82 (FIG. 3) mounted on respective receiver support struts 47 which in turn are each attached to a respective frame rail 23 (FIG. 1). While only one hood latch mechanism 64 is shown in FIGS. 1 and 5, it will be apparent that a pair of hood latch mechanism 64 is usually required in the hood and fender mounting system to attach the sides of the hood and fender assembly 42 with a respective frame rail 23. FIG. 5 illustrates mounting of the receiver assembly 82 to the receiver support strut 47. A plurality of bolts 311 extend through the frame mounting bracket 310 and the frame rail 23 to attach the receiver support strut 47 to the rail (FIG. 5). A receiver mounting bracket 308, which has adjustment slots 306 is connected to a second intermediate hood support bracket 305 by a plurality of screws 307. A plurality of screws 307 extend through a retaining plate 304, a first intermediate hood support bracket 301 and the second intermediate bracket 305 to form the mounting location for the receiver assembly 82. Both the first and second intermediate brackets, 301 and 305 respectively, incorporate slots 306 for adjustment purposes. The receiver assembly 82 is secured to the first intermediate hood support bracket with four screws 307. The receiver assemblies 82 of the latch mechanisms 64 are thereby anchored directly to the frame rail 23 via the receiver support strut 47. When the pin assembly 162 is engaged in the receiver assembly 82 as illustrated in FIG. 2, the engaged latch mechanism 64 serves as the rear support for the hood and fender assembly 42 and isolates the hood and fender assembly 42 from stresses caused by movement of the cab 26 relative to the frame, thus reducing damage to the hood.

[0030] Each latch mechanism 64 is actuated using a cable assembly 68 to release the connection between the hood and fender assembly 42 and the frame 22 when the latch transitions from a latched position (FIG. 2) to an unlatched position as illustrated in FIG. 3. As with the receiver support struts 47, only one latch mechanism 64 is illustrated in FIG. 1 but it will be apparent that a pair of latch mechanisms 64 is usually required to attach a side of the hood and fender assembly 42 with a respective frame rail 23.

[0031] The latch mechanism 64 includes the receiver assembly 82 which connects directly to the first intermediate hood support bracket 301 and a pin assembly 162 (FIG. 2). The receiver assembly 82 includes a cup-shaped receiver 84 and a plate 86 (FIG. 3). The cup-shaped receiver 84 includes a frusto-conical surface 90. The cup shaped receiver 84 is formed to include a clearance section 88 defined by dashed lines in FIG. 4 which does not contact the plate 86, so that essentially only three sides and the four corners of the receiver 84 contact the plate 86. The clearance section 88 spaces the bottom edge of the receiver 302 away from the plate 86 a predetermined distance D, which is slightly greater than the thickness of a lock lever 104, to allow clearance for the lock lever. A pair of rivet fasteners 100 and 303 connect the lock lever 104 to the plate 86 in such a way as to allow pivotal movement of the lock lever and the receiver 84 is then spot welded to the plate 86 prior to the attachment of the receiver assembly 82 to the first intermediate hood support bracket 301. A plurality of screws 307 extend through the receiver 84 and the plate 86 to attach the receiver assembly 82 to the first intermediate hood support bracket 301 (FIG. 5).

[0032] The lock lever 104 is located between the receiver 84 and the plate 86 as illustrated by FIG. 4. The lock lever 104 is preferably formed from a stamped metal, such as steel and has a thickness slightly less than the distance D (FIG. 3) which the receiver 84 and plate 86 are spaced apart in the clearance section 88. Thus, the lock lever 104 can move between the receiver 84 and plate 86 within the clearance section 88. The rivet fastener 100 extends through the lock lever 104 to pivotally mount the lock lever relative to and between the receiver 84 and the plate 86. The rivet fastener 303 extends through a slot 321 on the lock lever 104 and acts a stop which limits the travel of the lock lever about its pivot point, rivet 100. The lock lever 104, thus, comprises a member which is pivotable relative to the receiver 84 and plate 86. An opening 106 extends through the receiver 84 and an opening 108 (shown in FIG. 3) extends coaxially through the plate 86. The opening 106 is larger than the opening 108 to promote alignment when the pin assembly 162 is moving into a latched position. The opening 108 has a diameter only slightly larger than the shoulder 244.

[0033] The lock lever 104 includes a pin engaging portion 122 which is located completely between the receiver 84 and the plate 86 in the clearance section 88. The lock lever 104 also includes an arm portion 124 integrally formed as one piece with the pin engaging portion 122. The pin engaging portion 122 is for engaging the underside of the shoulder 244 of the pin assembly 162. The arm portion 124 is located outside of the receiver 84 and plate 86 and is operated to move the pin engaging portion 122 out of engagement with the other member of the latch mechanism 64. The arm portion 124 is connected with the cable 68 for moving the lock lever 104 between the latched position, as illustrated in FIG. 2 and solid lines in FIG. 4, and the unlatched position, as illustrated in FIG. 3 and dashed lines in FIG. 4.

[0034] In the latched position, the pin engaging portion 122 engages a part of the pin assembly 162. In the unlatched position, the pin engaging portion 122 is disengaged from the pin assembly 162. The pin engaging portion 122 includes a tapered surface 126 for ease of engaging the pin assembly 162 (FIG. 3). The lock lever 104 includes a spring 128 extending between the arm portion 124 and an extension 142 of the plate 86 (FIG. 4). The spring 128 biases the lock lever 104 toward the latched position in engagement with the other member of the latch mechanism 64.

[0035] The cable 68 which may be a Bowden type cable (FIGS. 1 and 4) and includes a sheath 69 and a lock nut 144 (shown only in FIG. 4) which is fixed relative to the first intermediate hood support bracket 301 and the cab 26. The cable 68 extends at one end from the lock lever 104 in the engine compartment to the other end inside the cab 26. Located coaxially and movable relative to the sheath 69 is a wire portion 146, which is connected at one end to the arm portion 124 by a crimped ball 148 or other suitable cable end attachment. The other end of the wire 146 is connected to a handle 66. The handle 66 (FIG. 1) is operably mounted in a support member fixed to the cab 26. The handle 66 can move pivotally or axially relative to its support. Movement of the handle 66 causes the arm portion 124 of the lock lever 104 to pivot, as illustrated in FIG. 4, by tension in the wire 146.

[0036] The handle 66 being located within the cab 26 of the tractor 20 enables an operator of the tractor to release the hood and fender assembly 42 from within the cab for access to the engine compartment 43. The hood latch mechanisms 64, thus, provide a measure of security for the tractor 20, because when the doors to the tractor are locked, no one can easily gain access to the engine compartment 43. Also, the hood latch mechanism 64 of the present invention allows release of the hood and fender assembly 42 without having to walk around the exterior sides of the tractor 20 or be outside of the tractor in inclement weather.

[0037] The latch mechanism 64 includes the pin assembly 162 shown best in FIG. 3. The pin assembly 162 is attached to the hood and fender assembly 42 at a rearward location away from the hinge 44. The receiver assembly 82 receives the pin assembly 162 when the hood and fender assembly 42 encloses the engine compartment 43 (shown in FIG. 1, by the dashed lines 63 b). The pin assembly 162 includes a mounting bracket 164 which is attached to the hood and fender assembly. Bolts 166 and weldnuts connect the mounting bracket 164 to the fiberglass hood and fender assembly 42 through a metal reinforcement 167 located on an inner surface of the hood and fender assembly 42 which delineates the engine compartment 43. This renders the latch mechanism 64 substantially inaccessible from the exterior of the tractor 20.

[0038] The mounting bracket 164 is essentially a cup-shaped member made from a drawn metal, such as steel or aluminum, which attaches to the hood and fender assembly 42 so the pin assembly 162 extends from an opening 168 in the inner surface of the hood and fender assembly 42. A pin or shaft 182 is connected to a bottom inner surface of the cup-shaped mounting bracket 164. The shaft 182 includes a sleeve 190 and a stud 221. A shoulder 188 is formed on one end of the sleeve 190. The stud 221 includes a threaded portion 186 at one end and a tapered surface 220 at the other end. The stud 221 is enclosed along its length by the sleeve 190, with the threaded portion 186 extending through the sleeve at the shoulder 188 of the sleeve. The threaded portion 186 is inserted into an opening in the mounting bracket 164 and a locking nut 185 is threaded onto the threaded portion 186 to draw the shoulder 188 of the sleeve 190 against the bottom inner surface of the mounting bracket 164. In the preferred embodiment, as illustrated in FIG. 3, the threaded portion 186 further includes a structure such as flatted sides 225 or a torx configuration to engage an assembly tool when tightening the nut 186. An alternative embodiment, shown in FIG. 2, the tapered end 220 includes a structure, such as flatted sides 220 a, for engaging an assembly tool. Washers may be used under the nut 185 or above the shoulder 188 of the sleeve 190 to distribute the load on the mounting bracket 164. A shoulder 244 is present at the tapered end 220 which retains the end of the sleeve 190. Therefore the distance between the tapered end 220 and the mounting bracket 164 is determined by the length of sleeve 190 and the thickness of any washer present between the shoulder 188 of the sleeve 190 and the mounting bracket 164.

[0039] A guide member 204 has a frusto-conical lead surface 206 and is axially movable along the shaft 182 at the tapered end 220. The guide member's external frusto-conical surface 206 is shaped similarly to the internal frusto-conical surface 90 of the receiver 84. This provides for load distribution during movement of the pin assembly 162 into the receiver assembly 82 as the hood and fender assembly 42 pivots from an open position to a closed position and provides at least some self-alignment characteristics. At least the shaft 182 and the guide member 204 extend through the opening 168 in the hood and fender assembly 42.

[0040] A spring 222 is located coaxially relative to the shaft 182 and the guide member 204 within an annular recess 224 of the guide member. The spring 222 biases the guide member 204 towards the tapered end 220. The guide member 204 includes another recess 242 at a leading axial end of the guide member for engaging a second shoulder 244 formed on the shaft 182 at the tapered end 220. The shoulder 244 limits the amount of axial travel of the guide member 204 along the shaft 182 in a direction away from the mounting bracket 164.

[0041] As the hood and fender assembly 42 is moved from the open position, as illustrated by the solid lines 63 a in FIG. 1, towards the closed position, as illustrated by dashed lines 63 b, the tapered end 220 of the shaft 182 and the frusto-conical lead surface 206 of the guide member 204 enter the receiver 84 and may engage the frusto-conical surface 90. The shaft 182 and guide member 204, thus, are fully seated and aligned in the receiver 84 prior to any movement of the shaft 182 into the opening 106 thereby serving to self-align the pin assembly 162 relative to the receiver assembly 82, as well as positioning the hood and fender assembly 42 relative to the frame 22. This self-alignment is due to the interaction between the frusto-conical surfaces 90, 206 and tapered surface 220 of the respective latch members 82, 162. The interaction between the surfaces 206 and 90 also serves to distribute the loads on the mounting bracket 164 during movement to a latched position.

[0042] As the hood and fender 42 assembly move towards its closed position, the first engagement between the frusto-conical surfaces 90, 206 defines a partially closed position of the hood and fender assembly relative to the frame 22 and cab 26. The bias force of the spring 222 maintains the bracket 164 slightly spaced from the receiver 84. Upon further movement of the hood and fender assembly 42 relative to the frame 22, from the partially closed position to a fully closed position, the guide member 204 remains stationary in the receiver 84. However, as the bias force of the spring 222 is overcome, the tapered end 220 of the shaft 182 extends through the opening 106 in the receiver assembly 82 and engages the tapered surface 126 of the pin engaging portion 122 to cam open the lock lever 104.

[0043] The tapered end 220 of the shaft 182 is tapered in order to self center in the receiver 84 to offset minor misalignment due to deflection of the hood and fender assembly 42 during closing. As the tapered end 220 and a shoulder 244 of the shaft engage the tapered surface 126 they force the pin engaging portion 122 of the lock lever 104 to move to a position, in a direction normal to the shaft, allowing the second end portion of the shaft 182 to pass beyond the pin engaging portion. Upon sufficient axial movement of the tapered end 220 beyond the tapered surface 126, the spring 128 biases the pin engaging portion 122 towards the latched position, as illustrated in FIG. 4, in which the pin engaging portion 122 contacts the under side of the shoulder 244 thereby preventing movement of the pin assembly 162 out of the receiver assembly 82, but may not be in contact the shaft 182. A concentric ridge 200 is formed on the guide member 204 which may engage the cup shaped mounting bracket 164 at the surface 191 to prevent over-travel of the guide member by stopping against the surface 191 in the event that the hood and fender assembly 42 is closed with excessive force. The amount of travel of the guide member 204 which is allowed prior to engaging the surface 191 serves to provide at least some isolation between the rearward portion of the hood and fender assembly 42 and the frame 22. Thus, when in the latched position, the shaft 182 is locked in place and prevented from axial movement outwardly of the receiver assembly 82 and plate opening 108, as illustrated in FIG. 2. This maintains the pin assembly 162 latched in the receiver assembly 82 which maintains the rearward portion of the hood and fender assembly 42 fixed relative to the frame 22.

[0044] This hood latch mechanism 64 positively and automatically locks the hood and fender assembly 42 in place relative to the frame 22 when the hood and fender assembly is moved from the partially closed position to the fully closed position against the bias force of the spring 222. No manual latching on either side of the tractor 20 is required. Any pivotal movement of the hood and fender assembly 42 towards the open position or laterally or longitudinally relative to the frame 22 is prevented. Due to its shock absorbing mechanism 28, the cab 26 will move relative to the frame 22, but the hood and fender assembly 42 is not free to move relative to the frame because it is fixed directly to the frame by the hinges 44 and hood latch mechanisms 64 (supported by the receiver support struts 47).

[0045] To release the latch mechanism 64, the handle 66 within the cab 26 is pulled to force the wire 146 to pivot the arm portion 124 of the lock lever 104. The pin engaging portion 122 pivots in a direction away from engagement with the tapered end 220 of the shaft 182, to the unlatched position, illustrated in FIG. 4 dashed lines. Excessive travel of the pin engaging portion 122 and overstretch of the spring 128 while moving away from engagement with the shaft 182 is prevented when the slot 321 in the lock lever 104 stops against the non-pivoting rivet 303. The biasing force of the spring 222 causes the hood and fender assembly 42 to pivot slightly from the fully closed position, as illustrated in FIG. 2, to a partially closed position in which the guide member 204 still engages in the receiver assembly 82 However, the shaft 182 is not engaged by the lock lever 104 to any degree which would prevent further pivotal movement of the hood and fender assembly 42 towards the fully opened position relative to the frame 22, as illustrated by solid lines 63 a in FIG. 1.

[0046] The front of the hood and fender assembly 42 is attached to the frame 22 with two hinge assemblies 44, one per frame rail 23, FIG. 1. Only one hinge assembly 44 will be described herein and it will be obvious that a substantially similar hinge assembly is required at the other frame rail 23. The hinge assembly 44 includes a J bracket 320, a hood adjusting rod 316, and a hood pivot bracket 314, FIG. 6. A plurality of bolts 324 connect the J bracket 320 to the inside of the hood and fender assembly 42 through adjustment slots 325 on the J bracket 320. The threaded hood adjusting rod 316 which is located in the hood bracket 318 is used to position the hood and fender assembly 42 in the fore and aft directions by adjusting the jam nuts 317 on the threads of the hood adjusting rod 316 while the bolts 324 are loose in the adjusting slots 325 until the hood and fender assembly is in the correct position and then tightening the bolts 324 to secure the J bracket 320 to the hood and fender assembly. The hinge assembly 44 is attached to a toweye bracket 313 via the hood pivot mounting bracket 314 using two nuts 315. The toweye bracket 313 is attached to a frame rail 23.

[0047] To regulate the effort required to open and close the hood and fender assembly 42, a torsion spring assist 300 including one or more hex-shaped torsion bars 312 is installed between the two hinge assemblies 44 (see FIG. 7). The J bracket 320 has a rigidly mounted socket 319 which accepts an end of a hex shaped torsion bar 312. The J bracket socket 319 protrudes through a circular opening in the hood pivot mounting bracket 314 and is able to rotate within the opening, allowing the forward end of the hood and fender assembly 42 to pivot about the center of the circular opening in the hood pivot mounting bracket 314 and the center of the J bracket socket. A rubber ring isolator 335 is located within the opening of the hood pivot mounting bracket 314 to provide some isolation between the J bracket 320 and the frame 22. A lock collar 338 is used to retain the relative position of the J bracket 320 and the hood pivot mounting bracket 314, and a thrust washer may be used between the lock collar 338 and the hood pivot mounting bracket 314 to reduce wear therebetween. A hex-shaped torsion bar 312 is pushed inboard through a hex shaped opening 327 in one hood pivot mounting bracket 314 and then is inserted into the J bracket socket 319 at the opposite hinge assembly 44. A set screw 322 (FIGS. 6 and 7) is then inserted through the bottom of the hood pivot bracket 314 to prevent the hex-shaped torsion bar 312 from sliding in an outboard direction, thereby maintaining the connection at both the J bracket socket 319 and the hood pivot bracket 314 (FIG. 6). Thus, the hex-shaped torsion bar 312 is prevented from rotation about its axis relative to the frame 22 at one end by the hex shaped opening 327 in the hood pivot bracket 314 and rotates about its axis at the other end when the hood and fender assembly 42 is pivoted between the open and closed position thereby rotating the J bracket socket 319 and twisting the hex-shaped torsion bar. A bushing 333 is installed at the midpoint of the hex-shaped torsion bars 312 to locate them and prevent any movement other than twisting during pivoting of the hood and fender assembly 42.

[0048] Because the hex shaped opening 327 in the hood pivot mounting bracket 314 and the interior dimensions of the J bracket socket 319 are a close slip-fit to the hex-shaped torsion bar 312, no other means of preventing rotation of the bar relative to the J bracket socket or hood pivot mounting bracket are necessary, eliminating the need for additional fasteners or fixing methods required by existing torsion bars with a circular cross section. Additionally, the hex shape of the torsion bar 312 allows for an adjustment to preload the torsion bars 312 to regulate the force necessary to move the hood and fender assembly 42 relative to its position between the fully open and fully closed position. This adjustment is made by aligning alignment notches 336 on the hood pivot mounting bracket 314 and 337 on the J bracket 320 prior to the attachment of the hood pivot mounting bracket 314 to the frame 22 thereby providing the necessary preload to assist in operation of the hood and fender assembly 42.

[0049] In addition to the hex-shaped torsion spring assist 300, the hood and fender assembly mounting system incorporates one or more hood restraint cylinders 45 for preventing sudden opening of the hood and fender assembly 42 and controlling the rate of travel of the hood and fender assembly when it is moved between the closed and open position, FIG. 6. The hood restraint cylinders 45 are attached to the toweye brackets 313 by inserting a threaded stud 334 at the end of the hood restraint cylinder rod 333 through a washer 331 and then the toweye bracket 313 and securing with nut 330. The other end of the hood restraint cylinder 45 is attached in a similar manner to the hood and fender assembly 42 using the threaded stud 334, a washer 331 and nut 330. The hood restraint cylinder 45 may resist the motion of the hood restraint cylinder rod 333 in the extend or retract direction. The hood restraint cylinder rod 333 is in its fully extended position when the hood and fender assembly 42 is open (see FIG. 1, solid lines 63 a) and fully retracted when the hood and fender assembly is closed (FIG. 1 dashed lines 63 b). Movement in either direction of the hood and fender assembly 42 between the open and closed position may be resisted by the extension or retraction of the hood restraint cylinder rod 333 as it moves through the fluid in the hood restraint cylinder 45. The degree of resistance in either direction may be controlled by the internal valving of the hood restraint cylinder 45. In the exemplary embodiment of the present invention, the hood restraint cylinders 45 are gas filled and resist motion in the extend or opening direction of movement of the hood and fender assembly 42.

[0050] The present invention prevents or reduces problems associated with the use of elastic straps or spring loaded latches to connect the rearward portion of the hood and fender assembly to the cab. In such a configuration, the rearward portion of the hood and fender assembly moves relative to the frame when the cab moves on its shock absorbing mechanism or when the frame flexes independent of the cab while the frontward portion of the hood and fender assembly, which is mounted directly to the frame, does not. The flexing of the fiberglass hood and fender assembly causes warpage and paint damage to the hood and fender assembly, requiring a large gasket to cushion impacts between the hood and fender assembly and the cab. The present invention eliminates the mechanical connection between the hood and fender assembly and the cab, and the need for the large gasket, by coupling both the frontward and rearward portions of the hood and fender assembly directly to the frame of the vehicle thereby reducing flexure of the hood and fender assembly. The present invention also increases security and convenience by making the hood latches relatively inaccessible from outside the vehicle and allowing for disengagement of the latches from inside the cab. This remote actuation feature discourages unauthorized access to the hood when the vehicle is locked and allows the driver to unlatch the hood from the comfort of the cab. The present invention improves ride quality because the hood and fender assembly does not limit the motion of the cab on its shock absorber or cause additional motion of the cab.

[0051] The present invention controls both the rate of travel and force required to move the hood and fender assembly between the closed and open position. Hood restraint cylinders prevent sudden movement by limiting the rate of travel. The hex-shaped torsion spring assist allows the force required to open and close the hood and fender assembly to be set by preloading the torsion bars prior to their installation. The hex-shaped torsion bar eliminates the need for additional means of fixing the bar to the hood and fender assembly necessary when round cross section bars are used because the hex-shaped torsion bar slip fits into the J bracket socket and the hood pivot bracket and is thereby prevented from rotation relative to its mounting location.

[0052] From the above description of a preferred embodiment of the invention, those skilled in the art will perceive improvements, changes and modifications. Such improvements, changes and modifications within the skill of the art are intended to be covered by the appended claims. 

1. An apparatus for use with a conventional over-the-highway heavy duty vehicle having a frame for supporting an engine, a cab, a hood and fender assembly and a hinge pivotally connecting the hood and fender assembly to the frame, said apparatus comprising: a first latch receiving member attached to the frame; a second latch member attached to the hood and fender assembly at a distal location relative to the hinge for receipt in said first latch receiving member when the hood and fender assembly encloses the engine, said second latch member engages said first latch receiving member to locate and maintain the hood and fender assembly in a predetermined position relative to the frame independent of the cab; one of said latch members having a lock mechanism movable between a latched position in engagement with the other latch member and an unlatched position disengaged from said other latch member; a movable handle; and a mechanism interposed between said handle and said lock mechanism to move said lock mechanism from the latched position to the unlatched position in response to movement of said handle.
 2. The apparatus set forth in claim 1 wherein said second latch member includes a shaft connected at a first end portion with the hood and fender assembly, a guide member is movable along said shaft between said first end portion of said shaft and a second end portion of said shaft, a bias mechanism urges said guide member towards said second end portion of said shaft, said first latch receiving member includes a cup shaped receiver having an opening extending therethrough, a surface on said guide member engages said cup shaped surface on said receiver when the hood and fender assembly pivots to a partially closed position to move said guide member towards said first end portion of said shaft against a force of said bias mechanism and expose said second end portion of said shaft during movement of the hood and fender assembly from the partially closed position to a fully closed position and cause said second end portion to extend through the opening in said receiver, said lock mechanism engages said second end portion of said shaft extending from the opening in said receiver to prevent movement of the hood and fender assembly towards an open position.
 3. The apparatus set forth in claim 1 wherein the hinge pivotally mounts the hood and fender assembly to the frame so the hood and fender assembly are forwardly tiltable from the position enclosing the engine to a position permitting access to the engine.
 4. The apparatus set forth in claim 1 wherein said first and second latch members are mounted in a location which is substantially inaccessible from the exterior of the vehicle when the hood and fender assembly is in a closed position relative to the frame.
 5. The apparatus set forth in claim 1 wherein said handle is located within the cab.
 6. The apparatus set forth in claim 1 wherein said mechanism includes a cable connecting said handle with said lock mechanism.
 7. An apparatus for use on a heavy duty over-the-highway tractor having a frame supporting a cab, an engine and a forwardly tiltable hood and fender assembly hinged at a forward end portion of the frame, said apparatus comprising: a first latch receiving member connected to the frame; a second latch member connected to the hood and fender assembly at a distal location relative to the hinge; said first latch receiving member receives the second latch member to position and maintain the hood and fender assembly relative to the frame independent of the cab; and a lock mechanism associated with said second latch member and which is engageable with a portion of said first latch receiving member to prevent said first latch receiving member from disengaging said second latch member.
 8. The apparatus set forth in claim 7 further including: a movable handle located within the cab; and a cable connecting said handle with said lock mechanism to move said lock mechanism from the position engaged with said portion of said first latch receiving member to a position disengaged from said portion of said fixed latch member in response to movement of said handle.
 9. The apparatus set forth in claim 7 wherein said second latch member includes a shaft connected at a first end portion to a bracket attached to the hood and fender assembly, a guide member is movable along said shaft between said first end portion of said shaft and a second end portion of said shaft, a bias mechanism urges said guide member towards said second end portion of said shaft, said first latch receiving member includes a cup shaped receiver having an opening extending therethrough, a surface on said guide member engages said cup shaped surface on said receiver when the hood and fender assembly pivots to a partially closed position to move said guide member towards said first end portion of said shaft against a force of said bias mechanism and expose said second end portion of said shaft during movement of the hood and fender assembly from the partially closed position to a fully closed position and cause said second end portion to extend through the opening in said receiver, said lock mechanism engages said second end portion of said shaft extending from said opening to prevent movement of the hood and fender assembly towards an open position.
 10. The apparatus set forth in claim 7 wherein said first and second latch members are mounted in a location which is substantially inaccessible from the exterior of the vehicle when the hood and fender assembly is in a closed position relative to the frame.
 11. An apparatus for releasably connecting a pair of relatively movable members, said apparatus comprising: a receiver attached to one of the pair of members and having an opening extending therethrough; a shaft attached to the other of the pair of members at a first axial end portion of said shaft; a guide member movable along said shaft between said first axial end portion of said shaft and a second axial end portion of said shaft; a bias mechanism urging said guide member towards said second axial end portion of said shaft when the members are located relatively away from one another in an open position; a surface on said guide member engages a surface on said receiver upon relative movement of the members from the open position to a partially closed position and moves said guide member towards said first axial end portion of said shaft against a force of said bias mechanism to expose said second axial end portion of said shaft from the guide member during movement of the pair of members from the partially closed position to a fully closed position and cause said second axial end portion to extend through the opening in said receiver; and a lock mechanism engages said second axial end portion of said shaft extending from said opening to prevent movement of the shaft relative the receiver and pair of members towards the open position.
 12. The apparatus set forth in claim 11 further including a shoulder on said second axial end portion of said shaft to limit movement of said guide member and to engage a portion of said lock mechanism to maintain said receiver and said guide member engaged and the pair of members in the fully closed position.
 13. The apparatus set forth in claim 11 further including a movable lever associated with said lock mechanism to disengage said lock mechanism from said second end portion of said shaft upon movement of said lever and permit the pair of members to move towards the open position.
 14. The apparatus set forth in claim 11 further including a movable handle and a mechanical connection between said handle and said lever for moving said lever upon movement of said handle.
 15. The apparatus set forth in claim 14 wherein said mechanical connection comprises a cable.
 16. The apparatus set forth in claim 11 wherein said bias mechanism comprises a spring located between and coaxial with said shaft and said guide member.
 17. The apparatus set forth in claim 11 wherein said receiver has a cup shaped surface for engaging said guide member and extends in a direction coaxial with said guide member when said members are located near and at the partially closed position, said opening in said receive located at a base portion of said cup shaped surface.
 18. The apparatus set forth in claim 17 wherein said cup shaped surface on said receiver and said surface on said guide member are frusto-conical.
 19. The apparatus set forth in claim 11 wherein said second end portion of said shaft is tapered and cams said lock mechanism in a direction transversely away from said shaft as said second axial end portion extends from the opening in said receiver.
 20. The apparatus set forth in claim 11 further including a bracket located in an opening in said other of the pair of members, said shaft is attached to said bracket and extends through said opening.
 21. The apparatus set forth in claim 11 wherein the one of the pair of relatively movable members is a vehicle frame rail and the other of the pair of relatively movable members is a hood and fender assembly including a bracket for attachment with said shaft.
 22. Vehicle apparatus for supporting an engine enclosing body panel, comprising: a vehicle frame supporting an engine, a passenger compartment, and a body panel operative to enclose said engine, said body panel mounted for movement between a first position at which said engine is accessible and a second position at which said engine is inaccessible; means for inhibiting movement in said body panel relative to said frame, including a first connecting mechanism for coupling one portion of said body panel directly to said frame and a second connecting mechanism for coupling another portion of said body panel directly to said frame, independent of said passenger compartment; and a disconnecting mechanism by which one of said connecting mechanisms may be disengaged to uncouple one of said portions of said body panel from said frame to allow said body panel to move between said first and second positions.
 23. The apparatus set forth in claim 22 wherein said vehicle is a conventional heavy duty truck and said body panel is a hood and fender assembly.
 24. The apparatus set forth in claim 22 wherein said connecting mechanism is at least one latch mechanism, comprising: a first latch member which is mechanically coupled to said frame, independent of said passenger compartment; a second latch member which is connected to said body panel; and said first latch member receives said second latch member and a lock mechanism releasably retains said second latch member.
 25. The apparatus set forth in claim 24 wherein said first latch member is connected to said frame by a mounting strut.
 26. The apparatus set forth in claim 22 wherein said disconnecting mechanism includes: a handle in said passenger compartment; and a means of connecting said handle to said disconnecting mechanism to move said connecting mechanism from a position inhibiting movement of said body panel to a position in which movement of said body panel is not inhibited in response to movement of said handle.
 27. The apparatus set forth in claim 26 wherein said means of connecting said handle to said disconnecting mechanism is a cable.
 28. The apparatus set forth in claim 22 wherein said first connecting mechanism is a hinge that pivotally connects said body panel to said frame including an isolating structure to isolate said body panel from said frame.
 29. The apparatus set forth in claim 28 wherein said hinge is located at a frontward end of said body panel.
 30. The apparatus set forth in claim 28 further including a regulating mechanism for regulating the operation of said body panel when moving between said first and second positions comprising a torsion spring with hexagonal cross-section.
 31. The apparatus set forth in claim 30 wherein said torsion spring is slip fit into a socket located at the pivot point of said body panel and retained at its other end in a hexagonal opening in a bracket fixed relative to said frame.
 32. The apparatus set forth in claim 30 wherein said regulating mechanism includes a damper device.
 33. For a highway vehicle, an apparatus for connecting a pair of relatively moveable structures forming part of said vehicle, said apparatus comprising: a first latch member which is mechanically coupled to a first structure; a second latch member which is connected to a second structure, comprised of a guide member and a shaft; said first latch member includes a surface which is complimentary to that of said second latch member and includes an opening which may receive said shaft of said second latch member; a lock mechanism which engages said second latch member and releasably retains it, thereby maintaining the relative position of said structures; said second latch member comprised of said shaft attached at one end to said member, said shaft having at its unattached end a complimentary shape to that of said first latch structure; and said second latch member further comprising a guide member capable of sliding along said shaft, said guide member also having a complimentary shaped surface to that of said first latch member and containing a guide member biasing mechanism which urges said guide member toward the unattached end of said shaft thereby serving to align said second latch member with said first latch member when said structures are being connected and to urge said second latch member out of engagement from said first latch member when said lock mechanism is disengaged.
 34. The apparatus set forth in claim 33 wherein said apparatus is for use in a vehicle which has a frame which supports an engine, a passenger compartment, and said body panel, wherein said first structure is said frame and said second structure is said body panel of said vehicle.
 35. The apparatus set forth in claim 33 wherein said shaft further includes: a shoulder which retains said guide member from movement in a direction toward the unattached end of said shaft, said shaft may protrude through said opening in said first latch member and thereby may be releasably retained by said lock mechanism; said complimentarily shaped surface of said guide member engages said surface of said first latch member when said structures are being connected and is retained by said surface of said first latch member, allowing said shaft to protrude through said opening in said first latch member and to be releasably retained by said lock mechanism; and said lock mechanism has a lock biasing mechanism which urges said lock mechanism toward a position which would engage said second latch member, said lock mechanism has a tapered interface surface which allows said shaft to slide along and cam said lock mechanism against the force of said lock biasing mechanism when said structures are being connected, said biasing mechanism causing said lock mechanism to return to a position of engagement with said second member when said shoulder protrudes past said tapered interface surface, thereby retaining said second latch member, said lock mechanism further includes a lever which can be operated to disengage said lock mechanism from said second latch member.
 36. The apparatus set forth in claim 35 further including a movable handle and a connection between said handle and said lever to permit disengagement of said second latch member from said first latch member by operating said movable handle.
 37. The apparatus set forth in claim 36 wherein said connection comprises a cable.
 38. The apparatus set forth in claim 33 wherein said guide member includes a shoulder which limits the travel of said guide member away from said attached end of said shaft when in the connected position to allow for some isolation of said first structure from said second structure without damage to the latch members.
 39. The apparatus set forth in claim 33 wherein guide member and said shaft have a frusto-conical shape.
 40. The apparatus set forth in claim 33 wherein said guide member biasing mechanism of said second latch member is a spring.
 41. The apparatus set forth in claim 35 wherein said lock biasing mechanism is a spring.
 42. The apparatus set forth in claim 35 wherein the travel of said lock mechanism is limited by a slot acting on a rivet to prevent damage to said lock bias mechanism.
 43. In a highway vehicle, an apparatus for regulating the operation of two relatively moveable structures connected pivotally at one end when moving said structures about said pivotal connection between a connected and disconnected position, said apparatus comprised of a torsion spring with a hexagonal cross-section.
 44. The apparatus set forth in claim 43 wherein said torsion spring is slip fit into a socket located at the pivot point of said structure and retained at its other end in a hexagonal opening in a bracket fixed relative to one of said structures.
 45. The apparatus set forth in claim 44 wherein said regulating mechanism includes a damper device.
 46. The apparatus set forth in claim 34 wherein said first latch member is connected to said frame by a mounting strut.
 47. A hood support and latching system for an over-the-highway vehicle, comprising: a) a vehicle frame structure extending longitudinally and including a cab mounting portion supporting an operator cab and a prime mover mounting portion forward of said cab portion; b) a hood assembly, movable between opened and closed positions and operative to enclose an engine compartment when in said closed position; c) at least one hood latch mechanism for maintaining closure of said hood assembly including first and second latching assemblies; d) said first latching assembly coupled directly to said frame structure and said second latching assembly attached to a rear section of said hood assembly, said first and second latching assemblies engagable, when said hood assembly is moved to its closed position ; and e) at least one pivot assembly mounted to a forward end of said frame structure for supporting a forward end of said hood assembly and defining a pivot axis for said hood assembly, whereby said hood assembly is entirely supported by said frame structure.
 48. The system of claim 47, further comprising a spring assist formed by at least one torsion bar having one end coupled to and rotatable with said hood assembly and having its other end held against rotation by structure coupling said other end to said frame structure.
 49. The system of claim 47, further comprising a movement regulating mechanism comprising at least one damping cylinder having one end attached to said hood assembly and another end pivotally coupled to said frame structure.
 50. The system of claim 48, wherein said torsion bar is hex-shaped in cross-section and said one end is received in a hex-shaped socket rotatable with said hinge assembly about said hinge assembly pivot axis and said other end is held against rotation by stationary hex-shaped structure.
 51. The system of claim 47, comprising two hood latch mechanisms having second latching assemblies secured to a rear section of said hood assembly at spaced apart locations.
 52. The system of claim 51, wherein said first latching assemblies are rigidly secured to said frame structure by laterally extending struts which locate said first latching assemblies in alignment with associated second latching assemblies of said latch mechanisms.
 53. The system of claim 47, wherein said first and second latching assemblies comprise a receiver assembly and a pin assembly, respectively.
 54. The system of claim 47, wherein said frame structure comprises a pair of elongate, parallel frame members.
 55. An apparatus for supporting a hood and fender assembly of a heavy duty truck comprising: a frame supporting an engine, a cab, and said hood and fender assembly which operates to enclose said engine, said hood and fender assembly being pivotally mounted at its frontward end to said frame by two hinges, located at either side of said hood and fender assembly; a torsion spring assist which controls the effort needed to operate said hood and fender assembly comprising two torsion bars having a hexagonal cross section mounted between said hinges, one end of each said torsion bar being inserted into a hexagonal socket which rotates with said hood and fender assembly and the other end of each said torsion bar being inserted into a hexagonal shaped opening defined by structure fixed relative to said frame, said torsion spring assist includes an alignment structure to aid in assembly; at least one fluid filled damper device connected between said hood and fender assembly and said frame which controls the rate of travel of said hood and fender assembly; two latch mechanisms located at spaced apart locations at the rearward portion of said hood and fender assembly each comprising a receiver assembly mounted to said frame, independent of said cab, on a receiver support strut and a pin assembly mounted to said hood and fender assembly at a location allowing said pin assembly to be received by said receiver assembly; said receiver assembly further including a lock lever which engages said pin assembly and releasably retains said pin assembly to connect said pin assembly to said receiver assembly thereby maintaining said hood and fender assembly in a predetermined, fixed position relative to said frame; and operating means for moving said lock lever to a released position whereby said receiver assembly releases said pin assembly.
 56. The apparatus set forth in claim 31 wherein said torsion spring further includes an alignment structure.
 57. The apparatus set forth in claim 44 wherein said torsion spring further includes an alignment structure.
 58. The apparatus set forth in claim 50 wherein said torsion bar further includes an alignment structure. 